y = h + 8
If twelve is more than half of H then H would have to be at the highest: 23 which does not equal 80.
2 is less than 5.
5 litres is more.
7 is more than 5.
The H-F bond is more polar than the H-I bond because F (fluorine) is more electronegative than I (iodine). It thus attracts the shared electrons more than does the I, making it a more polar bond.
The H+ concentration is 10 times higher at pH=4 than at pH=5, according to the formula definition:[H+] = 10-pHSo 10-4 = 10 * 10-5 that's why, you see!
h-2+5 ≤ 14: h ≤ 11
10 times as many
Ten times.
hydried is more stable than H-atom
A solution of pH 3 will have 100 times more H ions than a solution of pH 5; that means it is more acidic.Note that a solution of pH 2 will have 1000 times more H ions than one of pH 2, and a solution of pH 1 will have 10000 times, etc.
FALSE. It is 100 times more acidic and not 1000 times. PH 4 is more acidic than PH 6. But how many times is the answer to find out. PH = -log 10 [ H+] . Therefore [H+ ] = 10 -PH For PH = 4, [H+] = 10 -4 and for PH = 6, [H+ ] = 10 -6 10 -6 x 100 = 10 -4 therefore PH 4 is 100 times more acidic than PH 6.
Each step in pH represents a 10x concentration difference of H+ (protons). From pH3 --> pH5, there are 2 10x concentration differences of H+. Therefore, there is a x10^-2 difference Formula is: pH=-log (base 10) [H+]
5-fluorouracil is more stable than uracil as it has a C-F bond while uracil has a C-H bond. The C-F bond is more stable as F is very electronegative so the bond is stronger.
No because 35h is greater than 5h. 5 times h can be written as 5h.
No the atom bomb is not more powerful then the H-bomb